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Haystack Observatory

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The Boston Globe

Speaking with Charlie McKenna of The Boston Globe, Michael Hecht, associate director of MIT’s Haystack Observatory, describes the elation he felt when the NASA Perseverance rover landed on Mars. “I would have expected … just a huge sigh of relief, but no, this was like somebody just scored the winning touchdown on a Hail Mary pass in the Super Bowl,” says Hecht. “It just was time to whoop and holler. It was extraordinary and every part of this was extraordinary.”

WHDH 7

WHDH reporter Aisha Mbowe spotlights how the MIT-designed Mars Oxygen In-Situ Resource Utilization Experiment (MOXIE) is onboard NASA’s Perseverance rover.

CBS Boston

Profs. Tonja Bosak and Jeffrey Hoffman speak with CBS Boston about the successful landing of the NASA Perseverance rover on Mars. Hoffman says of the MIT-designed Mars MOXIE experiment: “we are going to demonstrate how to make oxygen on the surface of Mars…we want to learn how to produce that on the surface of Mars and that’s what Moxie is going to demonstrate for the first time.”

The Boston Globe

Michael Hecht, associate director of MIT’s Haystack Observatory, speaks with Charlie McKenna of The Boston Globe about the MIT-designed Mars Oxygen In-Situ Resource Utilization Experiment (MOXIE). “If we could plant a tree on Mars, it would do what MOXIE is doing. But we can’t, so we build a machine to do it,” he said. “If we’re serious about having a presence on Mars and having a research base, we need a way to make oxygen.”

CBS News

Astronomers have found that the M87* black hole appears to be wobbling, reports Sophie Lewis for CBS News. “The wobbling is big news — it allows scientists to study the object's accretion flow,” writes Lewis. “Studying that region is key to understanding how the black hole and surrounding matter interact with the host galaxy.”

Gizmodo

Gizmodo reporter George Dvorsky writes that astronomers from the Event Horizon Telescope collaboration, including MIT Haystack Observatory researchers, have studied the physical changes to M87* black hole and found that it appears to be wobbling. “With this paper, we’ve now entered into a new era of studying the intimate areas around black holes,” writes Dvorsky.

NECN

Michael Hecht of MIT’s Haystack Observatory speaks with Perry Russom of NECN about MOXIE, a new experimental device that will convert carbon dioxide in the Marian atmosphere into oxygen. Hecht explains that the inspiration for MOXIE lies in how it would be easier, “if we could make that oxygen on Mars and not have to bring this huge honking oxygen tank with us all the way from Earth.”

Vox

Prof. Tanja Bosak speaks with Vox reporter Brian Resnick about how Martian materials collected by the Perseverance rover might provide clues about early life forms on Earth. "These [Martian] rocks are older, by half a billion or a billion years, than anything that’s well preserved that we have on Earth,” says Bosak.

Boston Globe

Boston Globe reporter Caroline Enos spotlights the contributions of MIT researchers to the Mars 2020 mission, in particular the Mars Oxygen In-Situ Resource Utilization Experiment or MOXIE. “MOXIE could have a big impact on future missions if it is successful,” Enos explains.

Smithsonian Magazine

Haystack’s Michael Hecht, the principal investigator for the Mars MOXIE experiment, speaks with Max G. Levy of Smithsonian about the challenges involved in developing MOXIE’s oxygen-producing technology. “We want to show we can run [MOXIE] in the daytime, and the nighttime, in the winter, and in the summer, and when it’s dusty out," says Hecht, "in all of the different environments."

CNN

Michael Hecht, MOXIE principal investigator and director of research at MIT Haystack Observatory, speaks with CNN’s Ashley Strickland about MOXIE, an apparatus that was designed to convert carbon dioxide on Mars into breathable oxygen and fuel. With MOXIE, "you don't have to take an estimated 27 metric tons of oxygen to Mars,” says Hecht.

Boston Globe

Boston Globe reporter Laura Krantz visits MIT’s Haystack Observatory to learn more about the place where scientists played a key role in developing the first image of a black hole and created a supercomputer used to compile the image. Krantz notes that researchers at Haystack also study the Earth, not-far-away planets, and stars, and are creating devices to track the decay of icebergs.

The Wall Street Journal

Prof. Frank Wilczek writes for The Wall Street Journal about how the first image of a black hole could help scientists gain a better understanding of how galaxies form and evolve. “To a thinking mind, the image reflects the glory of understanding, and to an alert imagination it opens new portals into space, time and deep history,” writes Wilczek.

The Atlantic

Don Sousa, who coordinates shipments for the MIT Haystack Observatory, speaks with Atlantic reporter Marina Koren about the complex process of shipping petabytes of data from telescopes around the world to compile the first image of a black hole. Koren writes that for Sousa, “the photo is the culmination of years’ worth of effort by astronomers and shipping experts alike.”

WBUR

Writing for WBUR, Prof. Marcia Bartusiak examines the significance of astronomers capturing the first image of a black hole, and how information gathered from studying black holes could provide insights into the origins of our universe. “Continued efforts like the Event Horizon Telescope project will provide astronomy’s next steps in separating fantasy from reality,” writes Bartusiak.